Ensure the volatile memory is lockable or has locks. Ensure the volatile memory is locked for writes from untrusted agents or adversaries. Try modifying the volatile memory from an untrusted agent, and ensure these writes are dropped.
CWE-1274 Base Stable
Improper Access Control for Volatile Memory Containing Boot Code
This vulnerability occurs when a system's secure-boot process loads bootloader code into volatile memory (like DRAM or SRAM) but fails to properly lock down that memory region afterward. Without…
Definition
What is CWE-1274?
This vulnerability occurs when a system's secure-boot process loads bootloader code into volatile memory (like DRAM or SRAM) but fails to properly lock down that memory region afterward. Without strong access controls, an attacker can modify the boot code in memory, bypassing secure boot and running malicious software.
During a secure boot, the initial read-only memory (ROM) code inside a chip fetches the bootloader from external, non-volatile storage and copies it into internal volatile memory for execution. This code is authenticated as it's loaded. However, if the chip's memory protection unit (MPU) or similar hardware mechanisms don't enforce strict write or execute permissions on this volatile memory region after the transfer, the authenticated code becomes a sitting target.
An attacker with physical or software access can then overwrite this now-unprotected boot code in volatile memory. This allows them to subvert the entire secure-boot chain, replacing the trusted bootloader with their own malicious payload before the system's main processor executes it, completely undermining the device's security foundation.
Auswirkungen in der Praxis
Real-world CVEs caused by CWE-1274
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Locked memory regions may be modified through other interfaces in a secure-boot-loader image due to improper access control.
Wie Angreifer es ausnutzen
Angreiferpfad Schritt für Schritt
- 1
Identifiziere einen Codepfad, der nicht vertrauenswürdige Eingaben ohne Validierung verarbeitet.
- 2
Erzeuge eine Payload, die das unsichere Verhalten auslöst — Injection, Traversal, Overflow oder Logik-Missbrauch.
- 3
Liefere die Payload über einen normalen Request aus und beobachte die Reaktion der Anwendung.
- 4
Iteriere, bis die Antwort Daten preisgibt, Angreifer-Code ausführt oder Berechtigungen eskaliert.
Verwundbares Codebeispiel
Vulnerable Other
A typical SoC secure boot's flow includes fetching the next piece of code (i.e., the boot loader) from NVM (e.g., serial, peripheral interface (SPI) flash), and transferring it to DRAM/SRAM volatile, internal memory, which is more efficient.
The volatile-memory protections or access controls are insufficient. Sicheres Codebeispiel
Secure Other
The memory from where the boot loader executes can be modified by an adversary.
A good architecture should define appropriate protections or access controls to prevent modification by an adversary or untrusted agent, once the bootloader is authenticated. What changed: the unsafe sink is replaced (or the input is validated/escaped) so the same payload no longer triggers the weakness.
Präventions-Checkliste
How to prevent CWE-1274
- Architecture and Design Ensure that the design of volatile-memory protections is enough to prevent modification from an adversary or untrusted code.
- Testing Test the volatile-memory protections to ensure they are safe from modification or untrusted code.
Erkennungssignale
How to detect CWE-1274
Analyze the device using the following steps: 1. Identify all fabric master agents that are active during system Boot Flow when initial code is loaded from Non-volatile storage to volatile memory. 1. Identify the volatile memory regions that are used for storing loaded system executable program. 1. During system boot, test programming the identified memory regions in step 2 from all the masters identified in step 1. Only trusted masters should be allowed to write to the memory regions. For example, pluggable device peripherals should not have write access to program load memory regions.
Plexicus erkennt CWE-1274 automatisch und öffnet in unter 60 Sekunden einen Fix-PR.
Codex Remedium scannt jeden Commit, identifiziert genau diese Schwachstelle und liefert einen reviewer-ready Pull Request mit dem Patch. Keine Tickets. Keine Hand-offs.
Häufig gestellte Fragen Was ist CWE-1274?
Wie gravierend ist CWE-1274?
Welche Sprachen oder Plattformen sind von CWE-1274 betroffen?
Wie kann ich CWE-1274 verhindern?
Wie erkennt und behebt Plexicus CWE-1274?
Wo erfahre ich mehr über CWE-1274?
Frequently asked questions
Was ist CWE-1274?
This vulnerability occurs when a system's secure-boot process loads bootloader code into volatile memory (like DRAM or SRAM) but fails to properly lock down that memory region afterward. Without strong access controls, an attacker can modify the boot code in memory, bypassing secure boot and running malicious software.
Wie gravierend ist CWE-1274?
MITRE hat für diese Schwachstelle keine Exploit-Wahrscheinlichkeit veröffentlicht. Behandle sie als mittlere Auswirkung, bis dein Threat Model anderes belegt.
Welche Sprachen oder Plattformen sind von CWE-1274 betroffen?
MITRE lists the following affected platforms: Not OS-Specific, Not Architecture-Specific, Not Technology-Specific.
Wie kann ich CWE-1274 verhindern?
Ensure that the design of volatile-memory protections is enough to prevent modification from an adversary or untrusted code. Test the volatile-memory protections to ensure they are safe from modification or untrusted code.
Wie erkennt und behebt Plexicus CWE-1274?
Die SAST-Engine von Plexicus erkennt die Datenfluss-Signatur von CWE-1274 bei jedem Commit. Bei einem Treffer öffnet unser Codex-Remedium-Agent einen Fix-PR mit korrigiertem Code, Tests und einer einzeiligen Zusammenfassung für den Reviewer.
Wo erfahre ich mehr über CWE-1274?
MITRE veröffentlicht die kanonische Definition unter https://cwe.mitre.org/data/definitions/1274.html. Für ergänzende Hinweise kannst du auch die OWASP- und NIST-Dokumentation heranziehen.
Verwandte Schwachstellen
Weaknesses related to CWE-1274
CWE-284 Parent
Improper Access Control
The software fails to properly limit who can access a resource, allowing unauthorized users or systems to interact with it.
CWE-1191 Sibling
On-Chip Debug and Test Interface With Improper Access Control
This vulnerability occurs when a hardware chip's debug or test interface (like JTAG) lacks proper access controls. Without correct…
CWE-1220 Sibling
Insufficient Granularity of Access Control
This vulnerability occurs when a system's access controls are too broad, allowing unauthorized users or processes to read or modify…
CWE-1224 Sibling
Improper Restriction of Write-Once Bit Fields
This vulnerability occurs when hardware write-once protection mechanisms, often called 'sticky bits,' are incorrectly implemented,…
CWE-1231 Sibling
Improper Prevention of Lock Bit Modification
This vulnerability occurs when hardware or firmware uses a lock bit to protect critical system registers or memory regions, but fails to…
CWE-1233 Sibling
Security-Sensitive Hardware Controls with Missing Lock Bit Protection
This vulnerability occurs when a hardware device uses a lock bit to protect critical configuration registers, but the lock fails to…
CWE-1252 Sibling
CPU Hardware Not Configured to Support Exclusivity of Write and Execute Operations
This vulnerability occurs when a CPU's hardware is not set up to enforce a strict separation between writing data to memory and executing…
CWE-1257 Sibling
Improper Access Control Applied to Mirrored or Aliased Memory Regions
This vulnerability occurs when a hardware design maps the same physical memory to multiple addresses (aliasing or mirroring) but fails to…
CWE-1259 Sibling
Improper Restriction of Security Token Assignment
This vulnerability occurs when a System-on-a-Chip (SoC) fails to properly secure its Security Token mechanism. These tokens control which…
Ressourcen
Further reading
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